GENTAG is a company at the forefront of wireless sensor technology development, including innovative smart patches. These smart patches are designed to interact with the user’s skin by delivering medication or monitoring different biomarkers. Although not strictly a drug delivery system, their patches can be employed in conjunction with topical medications for a variety of conditions. This innovative approach enables targeted treatment, providing medication directly to the affected area and potentially minimizing side effects that may occur with systemic drug delivery.
What are these Smart Patches?
GENTAG’s Smart Patches are wearable devices that incorporate wireless sensor technologies. The patches are equipped with tiny sensors that can detect and monitor various biomarkers in real time. This monitoring system includes biomarkers such as glucose levels, hydration, temperature, or certain chemicals. The patches are designed to be worn on the skin, providing non-invasive, convenient monitoring of these essential health indicators.
What role does AI play?
AI plays a crucial role in maximizing the potential of these smart patches. By analyzing the data collected by the sensors on the patches, AI can identify patterns, trends, and changes that may indicate the need for intervention. For example, in the case of a patch monitoring glucose levels, the AI could analyze the data to identify instances of hyperglycemia (high glucose levels) or hypoglycemia (low glucose levels). This information can then be used to alert the user, their healthcare provider, or even potentially adjust the delivery of medication if the patch is combined with a drug delivery system.
GENTAG’s smart patches represent a step forward in personalized healthcare. They provide a convenient, non-invasive method for individuals to monitor their health indicators in real time. When combined with AI, these patches have the potential to not only provide important health data but also analyze this data to optimize treatment plans. This includes potentially adjusting medication delivery based on the monitored data, resulting in more personalized, effective treatments.